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|
// SPDX-License-Identifier: GPL-2.0
/*
* Copyright 2024 Google LLC.
*/
#include <kunit/test.h>
#include <linux/io-pgtable.h>
#include "arm-smmu-v3.h"
struct arm_smmu_test_writer {
struct arm_smmu_entry_writer writer;
struct kunit *test;
const __le64 *init_entry;
const __le64 *target_entry;
__le64 *entry;
bool invalid_entry_written;
unsigned int num_syncs;
};
#define NUM_ENTRY_QWORDS 8
#define NUM_EXPECTED_SYNCS(x) x
static struct arm_smmu_ste bypass_ste;
static struct arm_smmu_ste abort_ste;
static struct arm_smmu_device smmu = {
.features = ARM_SMMU_FEAT_STALLS | ARM_SMMU_FEAT_ATTR_TYPES_OVR
};
static struct mm_struct sva_mm = {
.pgd = (void *)0xdaedbeefdeadbeefULL,
};
enum arm_smmu_test_master_feat {
ARM_SMMU_MASTER_TEST_ATS = BIT(0),
ARM_SMMU_MASTER_TEST_STALL = BIT(1),
};
static bool arm_smmu_entry_differs_in_used_bits(const __le64 *entry,
const __le64 *used_bits,
const __le64 *target,
unsigned int length)
{
bool differs = false;
unsigned int i;
for (i = 0; i < length; i++) {
if ((entry[i] & used_bits[i]) != target[i])
differs = true;
}
return differs;
}
static void
arm_smmu_test_writer_record_syncs(struct arm_smmu_entry_writer *writer)
{
struct arm_smmu_test_writer *test_writer =
container_of(writer, struct arm_smmu_test_writer, writer);
__le64 *entry_used_bits;
entry_used_bits = kunit_kzalloc(
test_writer->test, sizeof(*entry_used_bits) * NUM_ENTRY_QWORDS,
GFP_KERNEL);
KUNIT_ASSERT_NOT_NULL(test_writer->test, entry_used_bits);
pr_debug("STE value is now set to: ");
print_hex_dump_debug(" ", DUMP_PREFIX_NONE, 16, 8,
test_writer->entry,
NUM_ENTRY_QWORDS * sizeof(*test_writer->entry),
false);
test_writer->num_syncs += 1;
if (!test_writer->entry[0]) {
test_writer->invalid_entry_written = true;
} else {
/*
* At any stage in a hitless transition, the entry must be
* equivalent to either the initial entry or the target entry
* when only considering the bits used by the current
* configuration.
*/
writer->ops->get_used(test_writer->entry, entry_used_bits);
KUNIT_EXPECT_FALSE(
test_writer->test,
arm_smmu_entry_differs_in_used_bits(
test_writer->entry, entry_used_bits,
test_writer->init_entry, NUM_ENTRY_QWORDS) &&
arm_smmu_entry_differs_in_used_bits(
test_writer->entry, entry_used_bits,
test_writer->target_entry,
NUM_ENTRY_QWORDS));
}
}
static void
arm_smmu_v3_test_debug_print_used_bits(struct arm_smmu_entry_writer *writer,
const __le64 *ste)
{
__le64 used_bits[NUM_ENTRY_QWORDS] = {};
arm_smmu_get_ste_used(ste, used_bits);
pr_debug("STE used bits: ");
print_hex_dump_debug(" ", DUMP_PREFIX_NONE, 16, 8, used_bits,
sizeof(used_bits), false);
}
static const struct arm_smmu_entry_writer_ops test_ste_ops = {
.sync = arm_smmu_test_writer_record_syncs,
.get_used = arm_smmu_get_ste_used,
};
static const struct arm_smmu_entry_writer_ops test_cd_ops = {
.sync = arm_smmu_test_writer_record_syncs,
.get_used = arm_smmu_get_cd_used,
};
static void arm_smmu_v3_test_ste_expect_transition(
struct kunit *test, const struct arm_smmu_ste *cur,
const struct arm_smmu_ste *target, unsigned int num_syncs_expected,
bool hitless)
{
struct arm_smmu_ste cur_copy = *cur;
struct arm_smmu_test_writer test_writer = {
.writer = {
.ops = &test_ste_ops,
},
.test = test,
.init_entry = cur->data,
.target_entry = target->data,
.entry = cur_copy.data,
.num_syncs = 0,
.invalid_entry_written = false,
};
pr_debug("STE initial value: ");
print_hex_dump_debug(" ", DUMP_PREFIX_NONE, 16, 8, cur_copy.data,
sizeof(cur_copy), false);
arm_smmu_v3_test_debug_print_used_bits(&test_writer.writer, cur->data);
pr_debug("STE target value: ");
print_hex_dump_debug(" ", DUMP_PREFIX_NONE, 16, 8, target->data,
sizeof(cur_copy), false);
arm_smmu_v3_test_debug_print_used_bits(&test_writer.writer,
target->data);
arm_smmu_write_entry(&test_writer.writer, cur_copy.data, target->data);
KUNIT_EXPECT_EQ(test, test_writer.invalid_entry_written, !hitless);
KUNIT_EXPECT_EQ(test, test_writer.num_syncs, num_syncs_expected);
KUNIT_EXPECT_MEMEQ(test, target->data, cur_copy.data, sizeof(cur_copy));
}
static void arm_smmu_v3_test_ste_expect_non_hitless_transition(
struct kunit *test, const struct arm_smmu_ste *cur,
const struct arm_smmu_ste *target, unsigned int num_syncs_expected)
{
arm_smmu_v3_test_ste_expect_transition(test, cur, target,
num_syncs_expected, false);
}
static void arm_smmu_v3_test_ste_expect_hitless_transition(
struct kunit *test, const struct arm_smmu_ste *cur,
const struct arm_smmu_ste *target, unsigned int num_syncs_expected)
{
arm_smmu_v3_test_ste_expect_transition(test, cur, target,
num_syncs_expected, true);
}
static const dma_addr_t fake_cdtab_dma_addr = 0xF0F0F0F0F0F0;
static void arm_smmu_test_make_cdtable_ste(struct arm_smmu_ste *ste,
unsigned int s1dss,
const dma_addr_t dma_addr,
enum arm_smmu_test_master_feat feat)
{
bool ats_enabled = feat & ARM_SMMU_MASTER_TEST_ATS;
bool stall_enabled = feat & ARM_SMMU_MASTER_TEST_STALL;
struct arm_smmu_master master = {
.ats_enabled = ats_enabled,
.cd_table.cdtab_dma = dma_addr,
.cd_table.s1cdmax = 0xFF,
.cd_table.s1fmt = STRTAB_STE_0_S1FMT_64K_L2,
.smmu = &smmu,
.stall_enabled = stall_enabled,
};
arm_smmu_make_cdtable_ste(ste, &master, ats_enabled, s1dss);
}
static void arm_smmu_v3_write_ste_test_bypass_to_abort(struct kunit *test)
{
/*
* Bypass STEs has used bits in the first two Qwords, while abort STEs
* only have used bits in the first QWord. Transitioning from bypass to
* abort requires two syncs: the first to set the first qword and make
* the STE into an abort, the second to clean up the second qword.
*/
arm_smmu_v3_test_ste_expect_hitless_transition(
test, &bypass_ste, &abort_ste, NUM_EXPECTED_SYNCS(2));
}
static void arm_smmu_v3_write_ste_test_abort_to_bypass(struct kunit *test)
{
/*
* Transitioning from abort to bypass also requires two syncs: the first
* to set the second qword data required by the bypass STE, and the
* second to set the first qword and switch to bypass.
*/
arm_smmu_v3_test_ste_expect_hitless_transition(
test, &abort_ste, &bypass_ste, NUM_EXPECTED_SYNCS(2));
}
static void arm_smmu_v3_write_ste_test_cdtable_to_abort(struct kunit *test)
{
struct arm_smmu_ste ste;
arm_smmu_test_make_cdtable_ste(&ste, STRTAB_STE_1_S1DSS_SSID0,
fake_cdtab_dma_addr, ARM_SMMU_MASTER_TEST_ATS);
arm_smmu_v3_test_ste_expect_hitless_transition(test, &ste, &abort_ste,
NUM_EXPECTED_SYNCS(2));
}
static void arm_smmu_v3_write_ste_test_abort_to_cdtable(struct kunit *test)
{
struct arm_smmu_ste ste;
arm_smmu_test_make_cdtable_ste(&ste, STRTAB_STE_1_S1DSS_SSID0,
fake_cdtab_dma_addr, ARM_SMMU_MASTER_TEST_ATS);
arm_smmu_v3_test_ste_expect_hitless_transition(test, &abort_ste, &ste,
NUM_EXPECTED_SYNCS(2));
}
static void arm_smmu_v3_write_ste_test_cdtable_to_bypass(struct kunit *test)
{
struct arm_smmu_ste ste;
arm_smmu_test_make_cdtable_ste(&ste, STRTAB_STE_1_S1DSS_SSID0,
fake_cdtab_dma_addr, ARM_SMMU_MASTER_TEST_ATS);
arm_smmu_v3_test_ste_expect_hitless_transition(test, &ste, &bypass_ste,
NUM_EXPECTED_SYNCS(3));
}
static void arm_smmu_v3_write_ste_test_bypass_to_cdtable(struct kunit *test)
{
struct arm_smmu_ste ste;
arm_smmu_test_make_cdtable_ste(&ste, STRTAB_STE_1_S1DSS_SSID0,
fake_cdtab_dma_addr, ARM_SMMU_MASTER_TEST_ATS);
arm_smmu_v3_test_ste_expect_hitless_transition(test, &bypass_ste, &ste,
NUM_EXPECTED_SYNCS(3));
}
static void arm_smmu_v3_write_ste_test_cdtable_s1dss_change(struct kunit *test)
{
struct arm_smmu_ste ste;
struct arm_smmu_ste s1dss_bypass;
arm_smmu_test_make_cdtable_ste(&ste, STRTAB_STE_1_S1DSS_SSID0,
fake_cdtab_dma_addr, ARM_SMMU_MASTER_TEST_ATS);
arm_smmu_test_make_cdtable_ste(&s1dss_bypass, STRTAB_STE_1_S1DSS_BYPASS,
fake_cdtab_dma_addr, ARM_SMMU_MASTER_TEST_ATS);
/*
* Flipping s1dss on a CD table STE only involves changes to the second
* qword of an STE and can be done in a single write.
*/
arm_smmu_v3_test_ste_expect_hitless_transition(
test, &ste, &s1dss_bypass, NUM_EXPECTED_SYNCS(1));
arm_smmu_v3_test_ste_expect_hitless_transition(
test, &s1dss_bypass, &ste, NUM_EXPECTED_SYNCS(1));
}
static void
arm_smmu_v3_write_ste_test_s1dssbypass_to_stebypass(struct kunit *test)
{
struct arm_smmu_ste s1dss_bypass;
arm_smmu_test_make_cdtable_ste(&s1dss_bypass, STRTAB_STE_1_S1DSS_BYPASS,
fake_cdtab_dma_addr, ARM_SMMU_MASTER_TEST_ATS);
arm_smmu_v3_test_ste_expect_hitless_transition(
test, &s1dss_bypass, &bypass_ste, NUM_EXPECTED_SYNCS(2));
}
static void
arm_smmu_v3_write_ste_test_stebypass_to_s1dssbypass(struct kunit *test)
{
struct arm_smmu_ste s1dss_bypass;
arm_smmu_test_make_cdtable_ste(&s1dss_bypass, STRTAB_STE_1_S1DSS_BYPASS,
fake_cdtab_dma_addr, ARM_SMMU_MASTER_TEST_ATS);
arm_smmu_v3_test_ste_expect_hitless_transition(
test, &bypass_ste, &s1dss_bypass, NUM_EXPECTED_SYNCS(2));
}
static void arm_smmu_test_make_s2_ste(struct arm_smmu_ste *ste,
enum arm_smmu_test_master_feat feat)
{
bool ats_enabled = feat & ARM_SMMU_MASTER_TEST_ATS;
bool stall_enabled = feat & ARM_SMMU_MASTER_TEST_STALL;
struct arm_smmu_master master = {
.ats_enabled = ats_enabled,
.smmu = &smmu,
.stall_enabled = stall_enabled,
};
struct io_pgtable io_pgtable = {};
struct arm_smmu_domain smmu_domain = {
.pgtbl_ops = &io_pgtable.ops,
};
io_pgtable.cfg.arm_lpae_s2_cfg.vttbr = 0xdaedbeefdeadbeefULL;
io_pgtable.cfg.arm_lpae_s2_cfg.vtcr.ps = 1;
io_pgtable.cfg.arm_lpae_s2_cfg.vtcr.tg = 2;
io_pgtable.cfg.arm_lpae_s2_cfg.vtcr.sh = 3;
io_pgtable.cfg.arm_lpae_s2_cfg.vtcr.orgn = 1;
io_pgtable.cfg.arm_lpae_s2_cfg.vtcr.irgn = 2;
io_pgtable.cfg.arm_lpae_s2_cfg.vtcr.sl = 3;
io_pgtable.cfg.arm_lpae_s2_cfg.vtcr.tsz = 4;
arm_smmu_make_s2_domain_ste(ste, &master, &smmu_domain, ats_enabled);
}
static void arm_smmu_v3_write_ste_test_s2_to_abort(struct kunit *test)
{
struct arm_smmu_ste ste;
arm_smmu_test_make_s2_ste(&ste, ARM_SMMU_MASTER_TEST_ATS);
arm_smmu_v3_test_ste_expect_hitless_transition(test, &ste, &abort_ste,
NUM_EXPECTED_SYNCS(2));
}
static void arm_smmu_v3_write_ste_test_abort_to_s2(struct kunit *test)
{
struct arm_smmu_ste ste;
arm_smmu_test_make_s2_ste(&ste, ARM_SMMU_MASTER_TEST_ATS);
arm_smmu_v3_test_ste_expect_hitless_transition(test, &abort_ste, &ste,
NUM_EXPECTED_SYNCS(2));
}
static void arm_smmu_v3_write_ste_test_s2_to_bypass(struct kunit *test)
{
struct arm_smmu_ste ste;
arm_smmu_test_make_s2_ste(&ste, ARM_SMMU_MASTER_TEST_ATS);
arm_smmu_v3_test_ste_expect_hitless_transition(test, &ste, &bypass_ste,
NUM_EXPECTED_SYNCS(2));
}
static void arm_smmu_v3_write_ste_test_bypass_to_s2(struct kunit *test)
{
struct arm_smmu_ste ste;
arm_smmu_test_make_s2_ste(&ste, ARM_SMMU_MASTER_TEST_ATS);
arm_smmu_v3_test_ste_expect_hitless_transition(test, &bypass_ste, &ste,
NUM_EXPECTED_SYNCS(2));
}
static void arm_smmu_v3_write_ste_test_s1_to_s2(struct kunit *test)
{
struct arm_smmu_ste s1_ste;
struct arm_smmu_ste s2_ste;
arm_smmu_test_make_cdtable_ste(&s1_ste, STRTAB_STE_1_S1DSS_SSID0,
fake_cdtab_dma_addr, ARM_SMMU_MASTER_TEST_ATS);
arm_smmu_test_make_s2_ste(&s2_ste, ARM_SMMU_MASTER_TEST_ATS);
arm_smmu_v3_test_ste_expect_hitless_transition(test, &s1_ste, &s2_ste,
NUM_EXPECTED_SYNCS(3));
}
static void arm_smmu_v3_write_ste_test_s2_to_s1(struct kunit *test)
{
struct arm_smmu_ste s1_ste;
struct arm_smmu_ste s2_ste;
arm_smmu_test_make_cdtable_ste(&s1_ste, STRTAB_STE_1_S1DSS_SSID0,
fake_cdtab_dma_addr, ARM_SMMU_MASTER_TEST_ATS);
arm_smmu_test_make_s2_ste(&s2_ste, ARM_SMMU_MASTER_TEST_ATS);
arm_smmu_v3_test_ste_expect_hitless_transition(test, &s2_ste, &s1_ste,
NUM_EXPECTED_SYNCS(3));
}
static void arm_smmu_v3_write_ste_test_non_hitless(struct kunit *test)
{
struct arm_smmu_ste ste;
struct arm_smmu_ste ste_2;
/*
* Although no flow resembles this in practice, one way to force an STE
* update to be non-hitless is to change its CD table pointer as well as
* s1 dss field in the same update.
*/
arm_smmu_test_make_cdtable_ste(&ste, STRTAB_STE_1_S1DSS_SSID0,
fake_cdtab_dma_addr, ARM_SMMU_MASTER_TEST_ATS);
arm_smmu_test_make_cdtable_ste(&ste_2, STRTAB_STE_1_S1DSS_BYPASS,
0x4B4B4b4B4B, ARM_SMMU_MASTER_TEST_ATS);
arm_smmu_v3_test_ste_expect_non_hitless_transition(
test, &ste, &ste_2, NUM_EXPECTED_SYNCS(3));
}
static void arm_smmu_v3_test_cd_expect_transition(
struct kunit *test, const struct arm_smmu_cd *cur,
const struct arm_smmu_cd *target, unsigned int num_syncs_expected,
bool hitless)
{
struct arm_smmu_cd cur_copy = *cur;
struct arm_smmu_test_writer test_writer = {
.writer = {
.ops = &test_cd_ops,
},
.test = test,
.init_entry = cur->data,
.target_entry = target->data,
.entry = cur_copy.data,
.num_syncs = 0,
.invalid_entry_written = false,
};
pr_debug("CD initial value: ");
print_hex_dump_debug(" ", DUMP_PREFIX_NONE, 16, 8, cur_copy.data,
sizeof(cur_copy), false);
arm_smmu_v3_test_debug_print_used_bits(&test_writer.writer, cur->data);
pr_debug("CD target value: ");
print_hex_dump_debug(" ", DUMP_PREFIX_NONE, 16, 8, target->data,
sizeof(cur_copy), false);
arm_smmu_v3_test_debug_print_used_bits(&test_writer.writer,
target->data);
arm_smmu_write_entry(&test_writer.writer, cur_copy.data, target->data);
KUNIT_EXPECT_EQ(test, test_writer.invalid_entry_written, !hitless);
KUNIT_EXPECT_EQ(test, test_writer.num_syncs, num_syncs_expected);
KUNIT_EXPECT_MEMEQ(test, target->data, cur_copy.data, sizeof(cur_copy));
}
static void arm_smmu_v3_test_cd_expect_non_hitless_transition(
struct kunit *test, const struct arm_smmu_cd *cur,
const struct arm_smmu_cd *target, unsigned int num_syncs_expected)
{
arm_smmu_v3_test_cd_expect_transition(test, cur, target,
num_syncs_expected, false);
}
static void arm_smmu_v3_test_cd_expect_hitless_transition(
struct kunit *test, const struct arm_smmu_cd *cur,
const struct arm_smmu_cd *target, unsigned int num_syncs_expected)
{
arm_smmu_v3_test_cd_expect_transition(test, cur, target,
num_syncs_expected, true);
}
static void arm_smmu_test_make_s1_cd(struct arm_smmu_cd *cd, unsigned int asid)
{
struct arm_smmu_master master = {
.smmu = &smmu,
};
struct io_pgtable io_pgtable = {};
struct arm_smmu_domain smmu_domain = {
.pgtbl_ops = &io_pgtable.ops,
.cd = {
.asid = asid,
},
};
io_pgtable.cfg.arm_lpae_s1_cfg.ttbr = 0xdaedbeefdeadbeefULL;
io_pgtable.cfg.arm_lpae_s1_cfg.tcr.ips = 1;
io_pgtable.cfg.arm_lpae_s1_cfg.tcr.tg = 2;
io_pgtable.cfg.arm_lpae_s1_cfg.tcr.sh = 3;
io_pgtable.cfg.arm_lpae_s1_cfg.tcr.orgn = 1;
io_pgtable.cfg.arm_lpae_s1_cfg.tcr.irgn = 2;
io_pgtable.cfg.arm_lpae_s1_cfg.tcr.tsz = 4;
io_pgtable.cfg.arm_lpae_s1_cfg.mair = 0xabcdef012345678ULL;
arm_smmu_make_s1_cd(cd, &master, &smmu_domain);
}
static void arm_smmu_v3_write_cd_test_s1_clear(struct kunit *test)
{
struct arm_smmu_cd cd = {};
struct arm_smmu_cd cd_2;
arm_smmu_test_make_s1_cd(&cd_2, 1997);
arm_smmu_v3_test_cd_expect_non_hitless_transition(
test, &cd, &cd_2, NUM_EXPECTED_SYNCS(2));
arm_smmu_v3_test_cd_expect_non_hitless_transition(
test, &cd_2, &cd, NUM_EXPECTED_SYNCS(2));
}
static void arm_smmu_v3_write_cd_test_s1_change_asid(struct kunit *test)
{
struct arm_smmu_cd cd = {};
struct arm_smmu_cd cd_2;
arm_smmu_test_make_s1_cd(&cd, 778);
arm_smmu_test_make_s1_cd(&cd_2, 1997);
arm_smmu_v3_test_cd_expect_hitless_transition(test, &cd, &cd_2,
NUM_EXPECTED_SYNCS(1));
arm_smmu_v3_test_cd_expect_hitless_transition(test, &cd_2, &cd,
NUM_EXPECTED_SYNCS(1));
}
static void arm_smmu_test_make_sva_cd(struct arm_smmu_cd *cd, unsigned int asid)
{
struct arm_smmu_master master = {
.smmu = &smmu,
};
arm_smmu_make_sva_cd(cd, &master, &sva_mm, asid);
}
static void arm_smmu_test_make_sva_release_cd(struct arm_smmu_cd *cd,
unsigned int asid)
{
struct arm_smmu_master master = {
.smmu = &smmu,
};
arm_smmu_make_sva_cd(cd, &master, NULL, asid);
}
static void arm_smmu_v3_write_ste_test_s1_to_s2_stall(struct kunit *test)
{
struct arm_smmu_ste s1_ste;
struct arm_smmu_ste s2_ste;
arm_smmu_test_make_cdtable_ste(&s1_ste, STRTAB_STE_1_S1DSS_SSID0,
fake_cdtab_dma_addr, ARM_SMMU_MASTER_TEST_STALL);
arm_smmu_test_make_s2_ste(&s2_ste, ARM_SMMU_MASTER_TEST_STALL);
arm_smmu_v3_test_ste_expect_hitless_transition(test, &s1_ste, &s2_ste,
NUM_EXPECTED_SYNCS(3));
}
static void arm_smmu_v3_write_ste_test_s2_to_s1_stall(struct kunit *test)
{
struct arm_smmu_ste s1_ste;
struct arm_smmu_ste s2_ste;
arm_smmu_test_make_cdtable_ste(&s1_ste, STRTAB_STE_1_S1DSS_SSID0,
fake_cdtab_dma_addr, ARM_SMMU_MASTER_TEST_STALL);
arm_smmu_test_make_s2_ste(&s2_ste, ARM_SMMU_MASTER_TEST_STALL);
arm_smmu_v3_test_ste_expect_hitless_transition(test, &s2_ste, &s1_ste,
NUM_EXPECTED_SYNCS(3));
}
static void arm_smmu_v3_write_cd_test_sva_clear(struct kunit *test)
{
struct arm_smmu_cd cd = {};
struct arm_smmu_cd cd_2;
arm_smmu_test_make_sva_cd(&cd_2, 1997);
arm_smmu_v3_test_cd_expect_non_hitless_transition(
test, &cd, &cd_2, NUM_EXPECTED_SYNCS(2));
arm_smmu_v3_test_cd_expect_non_hitless_transition(
test, &cd_2, &cd, NUM_EXPECTED_SYNCS(2));
}
static void arm_smmu_v3_write_cd_test_sva_release(struct kunit *test)
{
struct arm_smmu_cd cd;
struct arm_smmu_cd cd_2;
arm_smmu_test_make_sva_cd(&cd, 1997);
arm_smmu_test_make_sva_release_cd(&cd_2, 1997);
arm_smmu_v3_test_cd_expect_hitless_transition(test, &cd, &cd_2,
NUM_EXPECTED_SYNCS(2));
arm_smmu_v3_test_cd_expect_hitless_transition(test, &cd_2, &cd,
NUM_EXPECTED_SYNCS(2));
}
static struct kunit_case arm_smmu_v3_test_cases[] = {
KUNIT_CASE(arm_smmu_v3_write_ste_test_bypass_to_abort),
KUNIT_CASE(arm_smmu_v3_write_ste_test_abort_to_bypass),
KUNIT_CASE(arm_smmu_v3_write_ste_test_cdtable_to_abort),
KUNIT_CASE(arm_smmu_v3_write_ste_test_abort_to_cdtable),
KUNIT_CASE(arm_smmu_v3_write_ste_test_cdtable_to_bypass),
KUNIT_CASE(arm_smmu_v3_write_ste_test_bypass_to_cdtable),
KUNIT_CASE(arm_smmu_v3_write_ste_test_cdtable_s1dss_change),
KUNIT_CASE(arm_smmu_v3_write_ste_test_s1dssbypass_to_stebypass),
KUNIT_CASE(arm_smmu_v3_write_ste_test_stebypass_to_s1dssbypass),
KUNIT_CASE(arm_smmu_v3_write_ste_test_s2_to_abort),
KUNIT_CASE(arm_smmu_v3_write_ste_test_abort_to_s2),
KUNIT_CASE(arm_smmu_v3_write_ste_test_s2_to_bypass),
KUNIT_CASE(arm_smmu_v3_write_ste_test_bypass_to_s2),
KUNIT_CASE(arm_smmu_v3_write_ste_test_s1_to_s2),
KUNIT_CASE(arm_smmu_v3_write_ste_test_s2_to_s1),
KUNIT_CASE(arm_smmu_v3_write_ste_test_non_hitless),
KUNIT_CASE(arm_smmu_v3_write_cd_test_s1_clear),
KUNIT_CASE(arm_smmu_v3_write_cd_test_s1_change_asid),
KUNIT_CASE(arm_smmu_v3_write_ste_test_s1_to_s2_stall),
KUNIT_CASE(arm_smmu_v3_write_ste_test_s2_to_s1_stall),
KUNIT_CASE(arm_smmu_v3_write_cd_test_sva_clear),
KUNIT_CASE(arm_smmu_v3_write_cd_test_sva_release),
{},
};
static int arm_smmu_v3_test_suite_init(struct kunit_suite *test)
{
arm_smmu_make_bypass_ste(&smmu, &bypass_ste);
arm_smmu_make_abort_ste(&abort_ste);
return 0;
}
static struct kunit_suite arm_smmu_v3_test_module = {
.name = "arm-smmu-v3-kunit-test",
.suite_init = arm_smmu_v3_test_suite_init,
.test_cases = arm_smmu_v3_test_cases,
};
kunit_test_suites(&arm_smmu_v3_test_module);
MODULE_IMPORT_NS(EXPORTED_FOR_KUNIT_TESTING);
MODULE_DESCRIPTION("KUnit tests for arm-smmu-v3 driver");
MODULE_LICENSE("GPL v2");
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